The vaporization of 1 mole of liquid water (the system) at 100.9°C, 1.00 atm, is endothermic.

H2​O(l)+40.7kJH2​O(g)

Assume at exactly 100.0°C and 1.00 atm total pressure, 1.00 mole of liquid water and 1.00 mole of water vapor occupy 18.80 mL and 30.62 L, respectively.

Calculate the work done on or by the system when 2.65 mol of liquid H2O vaporizes. (in Joules)

Calculate the water's change in internal energy. (in kJ)

The vaporization of 1 mole of liquid water (the system) at 100.9°C, 1.00 atm, is endothermic.

Assume at exactly 100.0°C and 1.00 atm total pressure, 1.00 mole of liquid water and 1.00 mole of water vapor occupy 18.80 mL and 30.62 L, respectively.

1. Calculate the work done on or by the system when 4.85 mol of liquid H2O vaporizes.

2. Calculate the water's change in internal energy.

One mole of H2O gas at 1.00 atm and 100°C occupies a volume of 30.6 L. When 1 mole of H2O gas is condensed to 1 mole of H2O liquid at 1.00 atm and 100°C, 40.66 kJ of heat is released. If the density of H2O at this temperature and pressure is 0.996 g/cm^3, calculate for the condensation of 1 mole of water at 1.00 atm and 100°C.